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3D Printed Chiral Cellular Solids with Amplified Auxetic Effects Due to Elevated Internal Rotation
Author(s) -
Jiang Yunyao,
Li Yaning
Publication year - 2017
Publication title -
advanced engineering materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.938
H-Index - 114
eISSN - 1527-2648
pISSN - 1438-1656
DOI - 10.1002/adem.201600609
Subject(s) - auxetics , materials science , rotation (mathematics) , deformation (meteorology) , composite material , chirality (physics) , hinge , poisson's ratio , finite element method , nanotechnology , mechanical engineering , geometry , structural engineering , poisson distribution , chiral symmetry , physics , mathematics , quantum mechanics , nambu–jona lasinio model , engineering , quark , statistics
For the first time, the concept of amplifying chirality‐induced auxetic effect via elevating internal rotation efficiency is proposed. Based on this concept, new chiral cellular solids with center cores and softer hinges are designed and fabricated via multi‐material 3D printing. The new designs are proved via mechanical experiments and finite element (FE) simulations to have robust and amplified auxetic effects under large deformation. A linear relationship between the internal rotation efficiency and the Poisson's ratio is discovered. To bridge the conceptual model and the real cellular solids, systematic FE simulations are performed and provided guidelines to design this new family of chiral cellular solids with robust auxetic effects via jointly tailoring geometry and material composition.